Microsoft Hybrid Cloud blogsite about Management

Azure Cloud Shell is an interactive, browser-accessible shell for managing Azure resources. It provides the flexibility of choosing the shell experience that best suits the way you work. Linux users can opt for a Bash experience, while Windows users can opt for PowerShell.

In this quick overview you will see the possibilities of Microsoft Azure Cloudshell functionalities and tools.

Azure Cloudshell Editor

Azure Cloud Shell includes an integrated file editor built from the open-source Monaco Editor. The Cloud Shell editor supports features such as language highlighting, the command palette, and a file explorer.
This can be handy with JSON and YAML files.

When you have your App YAML file for your Azure Kubernetes Cluster on your Cloud drive, you can edit the file online with your browser and save it in the Azure Cloud. I like this editor in the Cloudshell, especially when you are not behind your own laptop or pc and you have to make a quick change.

I have a Kubernetes Cluster installed on Azure and with this editor I can explore my Azure logs, Cache, and config files for the information I need to work with in Bash, Powershell to do my CLI commands for example 😉

Kubectl is a command line interface for running commands against Kubernetes clusters. kubectl looks for a file named config in the $HOME/.kube directory. You can specify other kubeconfig files by setting the KUBECONFIG environment variable or by setting the –kubeconfig flag.Read here more about Kubectl

Terraform CLI is Available

What is Terraform?
Terraform is a tool for building, changing, and versioning infrastructure safely and efficiently. Terraform can manage existing and popular service providers as well as custom in-house solutions.
Configuration files describe to Terraform the components needed to run a single application or your entire datacenter. Terraform generates an execution plan describing what it will do to reach the desired state, and then executes it to build the described infrastructure. As the configuration changes, Terraform is able to determine what changed and create incremental execution plans which can be applied.
The infrastructure Terraform can manage includes low-level components such as compute instances, storage, and networking, as well as high-level components such as DNS entries, SaaS features, etc.

The key features of Terraform are:

Infrastructure as Code
Infrastructure is described using a high-level configuration syntax. This allows a blueprint of your datacenter to be versioned and treated as you would any other code. Additionally, infrastructure can be shared and re-used.

Execution Plans
Terraform has a “planning” step where it generates an execution plan. The execution plan shows what Terraform will do when you call apply. This lets you avoid any surprises when Terraform manipulates infrastructure.

Resource Graph
Terraform builds a graph of all your resources, and parallelizes the creation and modification of any non-dependent resources. Because of this, Terraform builds infrastructure as efficiently as possible, and operators get insight into dependencies in their infrastructure.

Change Automation
Complex changesets can be applied to your infrastructure with minimal human interaction. With the previously mentioned execution plan and resource graph, you know exactly what Terraform will change and in what order, avoiding many possible human errors.

AzCopyis a command-line utility designed for copying data to/from Microsoft Azure Blob, File, and Table storage, using simple commands designed for optimal performance. You can copy data between a file system and a storage account, or between storage accounts.

Conclusion :

Microsoft Azure Cloudshell is very powerful to work with, creating your infrastructure from the Command Line Interface (CLI) or with JSON / YAML scripts. Some features or commands are not available in the Azure portal and that’s where Azure Cloudshell can help you out. Try the different Azure Cloudshell Tools and look what you like most to use for your work. From here you can work on any device with a browser and do your work. #MVPBuzz

Seattle May 6-8, 2019

Watch live as technology leaders from across industries share the latest breakthroughs and trends, and explore innovative ways to create solutions. After the keynotes, select Microsoft Build sessions will stream live—dive deep into what’s new and what’s next for developer tools and tech.

Discover and experience new ways to build, modernize, and migrate your applications. Get hands-on experiences with tools like Azure Kubernetes Service (AKS) that can help you dynamically scale your application infrastructure.

Join Microsoft for hands-on learning to discover how tools like Visual Studio live share can help you collaborate with your peers instantly.

Come learn how to build an end-to-end continuous delivery pipeline that is fast and secure with Azure DevOps technologies. Spend less time maintaining your toolset and more time focusing on customer value.

Understand how frameworks like Xamarin and .NET can help you reach customers on all platforms. Learn how to use the same languages, APIs, and data structures across all mobile development platforms.

Learn how mixed reality helps you bring your work and data to life when you need it, and where you need it. Start building secure, collaborative mixed reality solutions today using intelligent services, best-in-class hardware, and cross-platform tools.

Learn to connect your devices to the cloud using flexible IoT solutions that integrate with your existing infrastructure. Collect untapped data and form valuable insights that help you create better customer experiences and generate new streams of revenue.

Conclusion :

When you have a lot of SQL workloads and want to go to Microsoft Azure Cloud Services, analyze your existing workloads well and have a look first at Microsoft Azure SQL Managed Instances. With this Azure PaaS Service, you don’t have to manage the Complete Infrastructure like in a SQL Always-On Cluster (IaaS).

Have a good look at the requirements and Microsoft Data Migration Services can help you out.

Azure Stack HCI solutions are available for customers who want to run virtualized applications on modern hyperconverged infrastructure (HCI) to lower costs and improve performance. Azure Stack HCI solutions feature the same software-defined compute, storage, and networking software as Azure Stack, and can integrate with Azure for hybrid capabilities such as cloud-based backup, site recovery, monitoring, and more.
Adopting hybrid cloud is a journey and it is important to have a strategy that takes into account different workloads, skillsets, and tools. Microsoft is the only leading cloud vendor that delivers a comprehensive set of hybrid cloud solutions, so customers can use the right tool for the job without compromise.

Microsoft Azure Monitor in Action

In this episode, Isaac Levin (@isaac2004) joins us to share how the developer exception resolution experience can be better with Azure Monitor and Snapshot Debugger. The discussion talks about what Azure Monitor is and an introduction to Snapshot Debugger, and quickly goes into demos showcasing what developers can do with Snapshot Debugger.

Application Insights is an extensible Application Performance Management (APM) service for web developers on multiple platforms. Use it to monitor your live web application. It will automatically detect performance anomalies. It includes powerful analytics tools to help you diagnose issues and to understand what users actually do with your app. It’s designed to help you continuously improve performance and usability. It works for apps on a wide variety of platforms including .NET, Node.js and Java EE, hosted on-premises, hybrid, or any public cloud. It integrates with your DevOps process, and has connection points to a variety of development tools. It can monitor and analyze telemetry from mobile apps by integrating with Visual Studio App Center.

Hybrid Integration

As enterprise environments now span on-premises to the cloud, customers look to leverage the innovation in Azure services using their on-premises tools. To enable this, Microsoft has integrated System Center with a set of management services in Azure to augment the on-premises tools.

With Service Map integration with System Center Operations Manager (SCOM), you can automatically create distributed application diagrams in Operations Manager (OM) that are based on the dynamic dependency maps in Service Map.

With Azure Management Pack, you can now view perf and alert metrics in SCOM, integrate with web application monitoring in Application Insights, and monitor more PaaS services, such as Azure Blob Storage, Azure Data Factory, etc.

Service Map integration
Service Map automatically discovers application components on Windows and Linux systems and maps the communication between services. It automatically builds a common reference map of dependencies across your servers, processes, and third-party services. Integration between Service Map and System Center Operations Manager allows you to automatically create distributed application diagrams in Operations Manager that are based on the dynamic dependency maps in Service Map.